Water control for evaporative coolers



A. s. FEINBERG 2,413,138 WATER CONTROL FOR EVAPORATIVE COOLERS Filed Oct. 20, 1944 fr?? Z/ i,

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D0 /0-2/ z5 ./f/"f/ @@/WK//YfQC? Dec. 24, 1946.

IN V EN TOR.

Patented Dec. 24, 1946 WATER CONTROL FOR EVAPORATIVE `COLERS Archie S. Feinberg, Dallas, Tex.

Application October 20, 1944, Serial No. 559,533

1 Claim.

This invention relates to evaporative air cooling equipment and more particularly to improvements in make-upv water supply for evaporative coolers.

The conventional method of supplying makeup water to an evaporative cooler employs a common float controlled valve which admits water required to replace that used in the vaporization process taking place in the wetted fibrous pads or mats of the cooler.

The water float with which conventional coolers are equipped is unsatisfactory in many respects. One serious disadvantage lies in the fact that the body of water in the reservoir being relatively shallow, rarely over three or four inches in depth, float displacement and consequent valve movement is limited to such extent as to cause frequent sticking of the needle valve. This results in either a continuous overflow or an empty water pan and in the latter case, cessation of cooling. It is rare that the valve during operation of the cooler, ever opens up fully and the rate of evaporation for the most part causes only a limited travel of the valve needle and permits not much more than seepage in the flow of water.

The principal object of the present invention is to provide an improved water supply system for evaporative coolers which will insure an adequate supply of water in the reservoir at all times by providing for positive andcomplete opening and closing of the inlet valve. Also, by virtue of a sealed chamber in the reservoir into which un'- contaminated municipal water is primarily directed preparatory to initial saturation of the filter pads, the latter are kept relatively free of foreign matter such as microscopic animal and vegetable organisms, algae and the like, which give rise to obnoxious odors, sometimes referred to as souringf These odors, combined with the fact that an unhealthful condition is created by the accumulated filth through which the air is required to be drawn, havealways represented a serious defect in evaporative coolers in general.

Another object of the invention is to provide a water supply system for evaporative coolers which, combined with the aforesaid provision for supplying fresh Water to the lter mats and the periodic ushing resulting therefrom, is equipped with an arrangement for filtering water drawn from the reservoir by a pump. Moreover, provision is also made for continuously flushing the intake area of said sealed chamber in the vicinity of the lter, to prevent infiltration of foreign matter in suspension on the surface of the reservoir water and to thereby maintain vrelatnfely.

clean condition of the chamber water lserving the pump therein.

stm another object of theinventien is repre! vide for precooling the tap water of ordinarily hightemperature before aeration yby passing the same through a cooling conduit,` constructed ofA a material of rapid heat conductivity, submerged in the re-aerated water of the reservoir,`whose lower temperatures will have the eect to equalize the temperatures, approaching thatwhich ob-.

tains in the reservoir. ,Y With the foregoing objects as paramount, the

invention has further reference to certain features of accomplishment which will become apparent as the description proceedaftaken inA connection with the accompanying drawingV wherein: l l

. Figure 1 is a perspective view of a typical water pan or reservoir of a conventional evaporative cooler; showing the invention installed therein.

Figure 2 is an elevational view with one end or'V side removed from the pan, taken on line V2-2 on Figure 1. l

Figure 3 is a fragmentary plan view, and Figure 4 is a detail perspective view ofthe.

pump chamber.

Continuing with a more detailed .description of the drawing, reference numeral Ill denotes the conventional pan or Water reservoir of an evapo-` rative cooling unit which contains the supply of water elevated by a pump for precipitation through one or more mats or pads (not shown):

pump outlet I4, to which further reference willi be made presently. Arranged in the casing or chamber II is a conventional water pump I5, whose operating shaft I6 extends upwardly and fis operated by a small electric motor I'I.

Municipal or tap Water is introduced through pipe I8 at one side of the pan I Il and its movement is controlled by a valve I9, actuated by a solenoid 20, to be later described. Continuing through pipe I8, the water enters a conduit or heat exchanger 2| of larger diameter than pipe I8 and constructed preferably of a material such as relatively thin copper, aluminum or other material known to possess high heat conductivity. This conduit is submerged in the Water of the revervoir I0 and consequently the tap Water, when owo 'i1-FICE ing therethrough, which is usually about 85 is influenced to lower temperatures by the comparatively cool, pre-aerated water of the basin or pan I0, which latter is of a temperature more nearly that of the atmospheric wet bulb temperature of the moment, usually in the middle seventies. The heat exchanger conduit 2I is in communication with the inlet I2 of the chamber II, through pipe 2Ia. The inlet I3 in `one side of the pump chamber II is in the form of an elongated opening, over which is arranged a filter 22 of finely woven wire mesh, submerged or partly submerged in the water of the basin III. This filter will be again referred to presently. The pump' outlet or pipe I4 supplies the spray or sprays (not shown) through pipe Ida which serve to moisten the filter mats. This pipe is tapped and 'a lateral 23 extends therefrom, around the corner of the chamber II and is formed into a nozzle or skimmer 24 (Figure 4), which directs a stream of water across in front of and parallel to the' screen filter I3 in such manner as to continuously clear the surface of the water in the immediate vicinity of the opening I3 of accumulations of 'foreign matter likely otherwise to be entrained with the water drawn into the filter by pump suction through the reservoirA intake I3. In this manner, even the reservoir water, after aeration, is not reaerated without having been rst subjected to such cleansing action as the filter will afford and at least the larger particles of foreign matter and much algae are constrained to remain in the reservoir, by virtue of the action of the skimmer or nozzle 24, and this matter will, forthe most part,

settle to the bottom ofthe pan I0 eventually, to l be'f removed during periodic cleanings of the latter.

The 1eve1 of water in the pan In is cdntroned through the medium of a float 26, suspended by an arm 21, which latter is'pivoted by means of' a bracket 28 mounted on the mat skid IU'aex-teding transversely across the pan I0. The normal level of water in the pan is above the` inlet I2,

although the showing thereof in Figure 2y indr-l cates the level as being below the said inlet,A inV may be accurately predetermined; A circuit isies'- tablished through a source 30', usually-'110' V.

house. circuit, through' wires" 3l., connecting the' switch 29 and solenoid 20'togetlfeir eleetricalltas' shown in Figure l, so that when -thlevelfof water inthe pan I0 'reaches' a predetermined.point}the switch 29 will function,- tlliollg'h the atOi (ij-f5 the float 26 to energize 'the solenoid 29` alidth'e'reby closesv the valvev I9 against. further inflow o'f; tap water through pipe'k I3; heatf exchanger 2-9'andv` pipe 2Ia.

It is to'be noted thatl iri'orderfto positively irisure against the introduction of any foreign matter with the fresh water into the pump chamber I I, the pipe 2Ia is directed through the port I2 of the chamber into a receptacle 32, disposed about the pump inlet, which latter is also served by the water entering the chamber through the filter 22.

It is apparent, in operation, that once the mats of the cooler have been saturated by fresh water from a service main through pipe I8, as described, and the water collected in the reservoir has risen to the desired level, the switch 29 will function to close the valve I9 in the manner explained. Until the level is lowered by process of vaporization, the valve I 9 will not be again opened Vto admit tapwater and the pump I5 will supply the mats with reservoir water through pipe I4a but only Water from which has been extracted the foreign matter usually giving trouble in conventional eduipment, because the skimmer 24 is always in operation during operative periods of the pump to discourage ingress of such matter into the pump chamber I I, even particlessmall enough to pass through the interstices of the lter, so long as they are in suspension.

It is therefore apparent that insects, algae, feathers, bits of decayed matter and the like ushed out of the filter mats into the reservoir, whichotherwise' would be picked up and redeposited in the mats are kept from being 'thus' re;

f circulated by the provisions herei'nrecited andV are constrained thereby to remain in the reservoir until they are dispensed with when the latter is' cleaned and scoured inthe conventional manner. Hence, the Inats are kept in ja more'sagnitary con# dition for longer periode of time to insure ajmorey healthful condition of the air serviced by the' apparatus, as well as obviating obnoxious odors resultingfrom thefs'urin'g` of the r'r'iaterial collecting on the' mats. V

M arife's'tly, theY construction as shown and describedis capable of some modification and- Suchlneicatibas may be construed to fall Within the s'cope'arid meaning of thel appended claim is aflsfcnsidfed to be Within theV spirit and itet' 1 O'f thinvention.

What is claimed is: n y

Ina Water' control for evaporative colii'i'g'apparatus lhavin'giibro'us filter mats Vthe combination comprising,- a' make-up reservoir, a chamber in said reservoir closed except for a screened inletr i'nr aLverti'cal wall thereof, partially submerged inv the'wate'r of said reservoir, a pump inv said chain-y berf-Wlio's'e'discharge serves' said mats, means f'or piOdlCaLI-lyf intrdlldillg l'islh Water' iIilO` the take of'said pump, means' forby-passing'A a part of said'pmp" discharge' across said chamber inlet" to divert foreign floating surface matter influenced by'p'ump s'uction to prevent said foreign matter from being carried to'said mats by' said pump' and meansfor electrically p'redetermining the water level of said reservoir.

ARCI-HE S. FEINBERG. 

